Improving Cereal Productivity through Climate Smart Practices
portes grátis
Improving Cereal Productivity through Climate Smart Practices
Sareen, Sindhu; Jasrotia, Poonam; Sharma, Pradeep; Sarial, Ashok Kumar; Singh, Charan; Pratap Singh, Gyanendra
Elsevier Science Publishing Co Inc
11/2020
358
Mole
Inglês
9780128213162
15 a 20 dias
840
Descrição não disponível.
Part 1: Genetic manipulations 1. New technology and introgression strategies are enabling the systematic exploitation of genetic variation from wild relatives for exploitation in the production of high-yielding wheat varieties adapted to environmental change 2. Genetic manipulation of wheat for different quality traits 3. Induced Mutagenesis to Sustain Wheat Production under Changing Climate 4, Innovations and New Horizons in Chromosome Elimination- Mediated DH Breeding: Five-Decade Journey of Speed Breeding in Wheat 5. Harnessing the Genetic Variation from Wild Triticum and Aegilops Species for Broadening Wheat Gene Pool for Biotic Stress Resistance 6. Potential of biofortified wheat to alleviate hidden hunger 7. A decade of progress on genetic enhancement and development of climate resilient biofortified wheat with enhanced micronutrient concentration 8. Improving nutritional quality of wheat: challenges and progress
PART II: Biotic and Abiotic Stresses 9. Taming the Beast-Wheat Blast Disease 10. Wheat rust research- impact, thrusts and road map to sustained wheat production 11. Dynamic wheats for the abiotic conditions of future farming systems: Whole plant traits and selection tools for breeding and management 12. Field crop breeding for resistance to biotic and abiotic stresses at ICARDA: Achievements and Prospects 13. Mitigating abiotic stress for enhancing wheat productivity 14. Phenomics to accelerate wheat improvement in agro-ecosystems challenged by abiotic stresses: Focus on unexplored adaptive traits to stabilize yield
Part III: Resource Management and Impact of Climate Change 15. Climate Smart Agriculture in Intensive Wheat Based Systems of South Asia 16. Wheat productivity enhancement through climate smart practices 17. Resource Optimization for Enhanced Wheat Productivity 18. Wheat productivity enhancement through climate smart practices 19. Optimization of resources for sustainable wheat productivity and enhanced profitability 20. Sustainability is crucial to guard wheat productivity enhancement in the era of climate change
PART II: Biotic and Abiotic Stresses 9. Taming the Beast-Wheat Blast Disease 10. Wheat rust research- impact, thrusts and road map to sustained wheat production 11. Dynamic wheats for the abiotic conditions of future farming systems: Whole plant traits and selection tools for breeding and management 12. Field crop breeding for resistance to biotic and abiotic stresses at ICARDA: Achievements and Prospects 13. Mitigating abiotic stress for enhancing wheat productivity 14. Phenomics to accelerate wheat improvement in agro-ecosystems challenged by abiotic stresses: Focus on unexplored adaptive traits to stabilize yield
Part III: Resource Management and Impact of Climate Change 15. Climate Smart Agriculture in Intensive Wheat Based Systems of South Asia 16. Wheat productivity enhancement through climate smart practices 17. Resource Optimization for Enhanced Wheat Productivity 18. Wheat productivity enhancement through climate smart practices 19. Optimization of resources for sustainable wheat productivity and enhanced profitability 20. Sustainability is crucial to guard wheat productivity enhancement in the era of climate change
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Abiotic stress; Adaptation; Agriculture; Agronomic management; Anti-gibberellin; Biofortification; Biotechnological approaches; Breeding; Cereal intercropping; Chromosome elimination; Climate change; Climate variability; Complementarity; Conservation agriculture; Crop yield; Doubled haploidy; Drought; Epidemiology; Evolution; Extended photoperiod; Fe and Zn; Food security; G x E interaction; Gene; Generation turnover; Genetic resistance; Global warming; Groundwater; Growth regulators; Growth retardant; Heat; Heat stress; Heat tolerance; Imperata cylindrica; Indian wheat; Induced mutagenesis; Insect pests; Irrigation; Laser land leveling; Magnaporthe oryzae pathotype triticum; Mainstreaming; Microirrigation; Micronutrient malnutrition; Mitigation; Multicrop systems; Mutant varieties; Overexpression; Pathogen monitoring; Physical and chemical mutagens; Physiological breeding; Phytase; Plant response; Production environments; Productivity; Puccinia; Resilience; Resistance genes; Resource use; Rice; Rust; Rust phenotyping; Salicylic acid; Salinity tolerance; Soil nutrients; South Asia; Speed breeding; Sustainable yield index; TILLING; Transcription factors; Triticales; Vulnerability; Water use; Wheat; Wheat blast; Wheat nutrition; Yield potential; Yield progression; Zea mays; Zero tillage; Zinc; Zinc deficiency;
Part 1: Genetic manipulations 1. New technology and introgression strategies are enabling the systematic exploitation of genetic variation from wild relatives for exploitation in the production of high-yielding wheat varieties adapted to environmental change 2. Genetic manipulation of wheat for different quality traits 3. Induced Mutagenesis to Sustain Wheat Production under Changing Climate 4, Innovations and New Horizons in Chromosome Elimination- Mediated DH Breeding: Five-Decade Journey of Speed Breeding in Wheat 5. Harnessing the Genetic Variation from Wild Triticum and Aegilops Species for Broadening Wheat Gene Pool for Biotic Stress Resistance 6. Potential of biofortified wheat to alleviate hidden hunger 7. A decade of progress on genetic enhancement and development of climate resilient biofortified wheat with enhanced micronutrient concentration 8. Improving nutritional quality of wheat: challenges and progress
PART II: Biotic and Abiotic Stresses 9. Taming the Beast-Wheat Blast Disease 10. Wheat rust research- impact, thrusts and road map to sustained wheat production 11. Dynamic wheats for the abiotic conditions of future farming systems: Whole plant traits and selection tools for breeding and management 12. Field crop breeding for resistance to biotic and abiotic stresses at ICARDA: Achievements and Prospects 13. Mitigating abiotic stress for enhancing wheat productivity 14. Phenomics to accelerate wheat improvement in agro-ecosystems challenged by abiotic stresses: Focus on unexplored adaptive traits to stabilize yield
Part III: Resource Management and Impact of Climate Change 15. Climate Smart Agriculture in Intensive Wheat Based Systems of South Asia 16. Wheat productivity enhancement through climate smart practices 17. Resource Optimization for Enhanced Wheat Productivity 18. Wheat productivity enhancement through climate smart practices 19. Optimization of resources for sustainable wheat productivity and enhanced profitability 20. Sustainability is crucial to guard wheat productivity enhancement in the era of climate change
PART II: Biotic and Abiotic Stresses 9. Taming the Beast-Wheat Blast Disease 10. Wheat rust research- impact, thrusts and road map to sustained wheat production 11. Dynamic wheats for the abiotic conditions of future farming systems: Whole plant traits and selection tools for breeding and management 12. Field crop breeding for resistance to biotic and abiotic stresses at ICARDA: Achievements and Prospects 13. Mitigating abiotic stress for enhancing wheat productivity 14. Phenomics to accelerate wheat improvement in agro-ecosystems challenged by abiotic stresses: Focus on unexplored adaptive traits to stabilize yield
Part III: Resource Management and Impact of Climate Change 15. Climate Smart Agriculture in Intensive Wheat Based Systems of South Asia 16. Wheat productivity enhancement through climate smart practices 17. Resource Optimization for Enhanced Wheat Productivity 18. Wheat productivity enhancement through climate smart practices 19. Optimization of resources for sustainable wheat productivity and enhanced profitability 20. Sustainability is crucial to guard wheat productivity enhancement in the era of climate change
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Abiotic stress; Adaptation; Agriculture; Agronomic management; Anti-gibberellin; Biofortification; Biotechnological approaches; Breeding; Cereal intercropping; Chromosome elimination; Climate change; Climate variability; Complementarity; Conservation agriculture; Crop yield; Doubled haploidy; Drought; Epidemiology; Evolution; Extended photoperiod; Fe and Zn; Food security; G x E interaction; Gene; Generation turnover; Genetic resistance; Global warming; Groundwater; Growth regulators; Growth retardant; Heat; Heat stress; Heat tolerance; Imperata cylindrica; Indian wheat; Induced mutagenesis; Insect pests; Irrigation; Laser land leveling; Magnaporthe oryzae pathotype triticum; Mainstreaming; Microirrigation; Micronutrient malnutrition; Mitigation; Multicrop systems; Mutant varieties; Overexpression; Pathogen monitoring; Physical and chemical mutagens; Physiological breeding; Phytase; Plant response; Production environments; Productivity; Puccinia; Resilience; Resistance genes; Resource use; Rice; Rust; Rust phenotyping; Salicylic acid; Salinity tolerance; Soil nutrients; South Asia; Speed breeding; Sustainable yield index; TILLING; Transcription factors; Triticales; Vulnerability; Water use; Wheat; Wheat blast; Wheat nutrition; Yield potential; Yield progression; Zea mays; Zero tillage; Zinc; Zinc deficiency;
